Sensors Based on Nanostructured Materials
Francisco J. Arregui
- NY Springer 2009
- 326P
Carbon Nanotube and Fullerene Sensors Non-carbon Nanotubes: Hydrogen Sensors Based on TiO2 Alternative Nanostructured Sensors: Nanowires, Nanobelts, and Novel Nanostructures Nanosensors: Controlling Transduction Mechanisms at the Nanoscale Using Metal Oxides and Semiconductors Quantum Dots for Sensing Nanostructured Magnetic Sensors Encapsulated Probes Optical Fiber Sensors Based on Nanostructured Coatings Nanostructured Flexible Materials: Metal Rubberâ„¢ Strain Sensors
Complete discussion of sensors based on carbon nanotubes including sensing applications of carbonanotubes, gas, volatile organic compounds, flow, pH, glucose, biomolecules detection and other biological sensors
Coverage of Nanowires, Nanobelts, and Novel Nanostructures and sensing applications such as gas, electronic noses, and chemical warfare agents
Discusses Nanocoatings on optical fibers including sensing applications such as humidity, gas, volatile organic compounds and biological recognition
Discusses the relatively new encapsulated probes for sensing and applications such as pH, calcium, oxygen, glucose and intracellular imaging
Complete coverage of Biosensors by means of nanostructured materials and types of nanostructured biosensors such as DNA-protein conjugates, template-imprinted nanostructures, nanostructured electrodes for biosensing and methods of synthesis